CN220165265U - Rare earth metal surface electrolyte removing device - Google Patents

Abstract

The utility model belongs to the technical field of rare earth metal processing, in particular to a rare earth metal surface electrolyte removing device, which comprises a base frame, wherein an electric heating box main body is fixed on the top surface of the base frame, a conveyor main body is arranged below the inside of the electric heating box main body, two end brackets of the conveyor main body are respectively fixed with the top surfaces of two sides of the base frame, and a first gear is arranged on the front surface of one end of the conveyor main body; the pressing roller can be lifted along with the lifting of the lifting square block in the pressing roller track, so that the device can achieve the purpose of adjusting the relative distance between the pressing roller and the conveyor main body conveying belt by adjusting the relative height of the lifting square block in a certain range according to requirements, the purpose of limiting the relative thickness of rare earth metal on the conveyor main body conveying belt is achieved, the drying quality of the electric heating box main body to electrolyte attached to the outer wall of the rare earth metal is guaranteed, and the practicality of the device is improved.

Description

Rare earth metal surface electrolyte removing device

Technical Field

The utility model belongs to the technical field of rare earth metal processing, and particularly relates to a rare earth metal surface electrolyte removing device.

Background

The rare earth metal (rare earth metals) is also called rare earth element, namely 17 elements of scandium, yttrium and lanthanide series in III B group of periodic table, and is commonly expressed by R or RE, wherein electrolyte is required to be used for soaking in the preparation process of part of rare earth metal, electrolyte on the surface of the rare earth metal is required to be removed after soaking is finished, and a corresponding electrolyte removing device is required in the process.

The electrolyte removing device in the prior art mainly comprises a drying box main body, a conveyor main body and other structures, wherein the drying box main body carries out heat drying treatment on rare earth metal entering the drying box main body, two ends of a conveying belt of the conveyor main body are communicated with two ends of the drying box main body to form inlets and outlets, rare earth metal raw materials are placed on the surface of the conveying belt, and the rare earth metal is conveyed to pass through the inside of the drying box under the conveying action force of the conveying belt to realize drying removal treatment on electrolyte.

However, in the prior art, the relative rear pair of rear rare earth placed on the surface of the conveyer belt is uncontrollable, and the relative thickness of the rare earth metal on the surface of the conveyer belt is one of the main factors influencing the drying effect of the conveyer belt under the condition that the conveying efficiency of the conveyer belt is inconvenient, and the electrolyte on the surface of the rare earth metal is not thoroughly dried due to the fact that the electrolyte on the surface of the rare earth metal is not controllable in thickness.

Therefore, a rare earth metal surface electrolyte removal device has been proposed to address the above-described problems.

Disclosure of Invention

In order to make up the defects in the prior art, solve the problem that the rare earth metal surface electrolyte is dried and removed incompletely due to the fact that the rare earth metal thickness with uncontrollable relative thickness on a conveyor belt can be caused.

The technical scheme adopted for solving the technical problems is as follows: the utility model discloses a rare earth metal surface electrolyte removing device, which comprises a base frame, wherein an electric heating box main body is fixed on the top surface of the base frame, a conveyor main body is arranged below the inside of the electric heating box main body, two end brackets of the conveyor main body are respectively fixed with the top surfaces of two sides of the base frame, a first gear is arranged on the front surface of one end of the conveyor main body, one end of a shaft rod of the first gear penetrates through the inside of the conveyor main body and is connected with a rotating shaft of the conveyor main body, an adjusting mechanism is fixed on one side of the electric heating box main body above the base frame, the adjusting mechanism comprises a pressing roller, and circular grooves are formed in the positions, close to the edges of two ends, of the outer wall of the pressing roller.

Preferably, the both ends of pressing cylinder all are provided with the cylinder support, equal slidable mounting has the lift square between the track inner wall of cylinder support, the through-hole has been seted up to one side of lift square, two the through-hole inner wall respectively with the inner wall of two ring grooves between the block each other, the axostylus axostyle one end of pressing cylinder is fixed with the second gear, the linkage chain is installed to the meshing between second gear and the first gear outer wall.

Preferably, one side of the roller support is provided with a straight groove opening, a linkage short rod is slidably mounted between the inner walls of the straight groove opening, one end of the linkage short rod is fixed with the center of one side of one lifting square block, and the other end of the linkage short rod is fixed with a threaded sleeve.

Preferably, the lifting screw rod is installed on the threads of the inner wall of the threaded sleeve, screw rod supports are fixed at two ends of the lifting screw rod through bearings, one of the screw rod supports is fixed on the bottom surface of the screw rod support and the lower side wall of the roller support, and the other screw rod support is fixed on the upper side wall of the roller support.

Preferably, a motor is fixed on the top surface of the screw rod support, and an output shaft of the motor penetrates through the screw rod support to be connected with the axis of the lifting screw rod.

Preferably, the front part of the top surface of the base frame is fixed with a chain limiting frame, a lifting square plate is slidably arranged between the inner walls of the tracks of the chain limiting frame, a chain pressing cylinder is arranged on the lifting square plate through a shaft rod, the chain pressing cylinder is inserted into and linked with a chain support, an elastic telescopic rod is fixed at the center of the top surface of the lifting square plate, and one end of the elastic telescopic rod is fixed with the top surface of the groove of the chain limiting frame.

The utility model has the beneficial effects that:

the utility model provides a rare earth metal surface electrolyte removing device, wherein a lifting square block is mutually clamped with a circular groove on a pressing roller through a through hole, so that the pressing roller is mounted by a roller bracket, the pressing roller can lift along with the lifting of the lifting square block in a pressing roller track, the device can adjust the relative distance between the pressing roller and a conveyor main body conveying belt in a certain range according to requirements by adjusting the relative height of the lifting square block, the purpose of limiting the relative thickness of rare earth metal on the conveyor main body conveying belt is achieved, the drying quality of an electric heating box main body for electrolyte attached to the outer wall of the rare earth metal is ensured, and the practicability of the device is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of a first gear in the present utility model;

FIG. 3 is a perspective view of a roller bracket according to the present utility model;

FIG. 4 is a perspective view of a platen roller of the present utility model;

FIG. 5 is a perspective view of a lifting square plate in the present utility model;

legend description:

1. a base frame; 2. an electric heating box main body; 3. a conveyor body; 31. a first gear; 4. an adjusting mechanism; 41. a pressing roller; 411. circular ring grooves; 42. a roller bracket; 43. lifting the square block; 431. a through hole; 412. a second gear; 44. a linkage chain; 421. a straight slot opening; 45. a linkage short rod; 451. a threaded sleeve; 46. lifting the screw rod; 461. a screw rod bracket; 462. a motor; 5. a chain limiting frame; 51. lifting the square plate; 52. pressing a cylinder by a chain; 53. an elastic telescopic rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Specific examples are given below.

Referring to fig. 1-5, the utility model provides a rare earth metal surface electrolyte removing device, which comprises a base frame 1, wherein an electric heating box main body 2 is fixed on the top surface of the base frame 1, a conveyor main body 3 is arranged below the inside of the electric heating box main body 2, two end brackets of the conveyor main body 3 are respectively fixed with the top surfaces of two sides of the base frame 1, a first gear 31 is arranged on the front surface of one end of the conveyor main body 3, one end of a shaft lever of the first gear 31 penetrates into the inside of the conveyor main body 3 and is connected with a rotating shaft of the conveyor main body, an adjusting mechanism 4 is fixed on one side of the electric heating box main body 2 above the base frame 1, the adjusting mechanism 4 comprises a pressing roller 41, and circular grooves 411 are formed in the positions, close to the edges of two ends, of the outer wall of the pressing roller 41;

in order to solve the problem that the electrolyte on the surface of the rare earth metal is dried and removed thoroughly due to the fact that the thickness of the rare earth metal is uncontrollable relative to the thickness of a conveyor belt, the base frame 1 supports the whole device, the electric heating box main body 2 and the conveyor main body 3 are arranged above the base frame 1, the conveyor belt of the conveyor main body 3 passes through a drying cabin of the base frame 1, the first gear 31 is arranged at the front part of the conveyor main body 3, the first gear 31 and the conveyor main body 3 can synchronously rotate through connection between a shaft lever of the first gear 31 and a rotating shaft of the conveyor main body 3, the adjusting mechanism 4 is arranged on one side above the base frame 1 and used for realizing thickness limitation of the rare earth metal on the conveyor main body 3 and the conveyor belt through the structure of the adjusting mechanism and the rolling pressing of the rare earth metal placed on the conveyor main body 3, and the pressing roller 41 is a main structure for pressing the rare earth metal.

Further, as shown in fig. 1 and fig. 4, roller brackets 42 are disposed at two ends of the pressing roller 41, lifting blocks 43 are slidably mounted between inner walls of rails of the roller brackets 42, a through hole 431 is formed on one side of each lifting block 43, inner walls of the two through holes 431 are respectively engaged with inner walls of the two circular ring slots 411, a second gear 412 is fixed at one end of a shaft rod of the pressing roller 41, and a linkage chain 44 is mounted between the second gear 412 and an outer wall of the first gear 31 in a meshed manner.

During operation, the roller bracket 42 installs the lifting square block 43 through the inner rail, the lifting square block 43 realizes the linkage with the pressing roller 41 through the mutual clamping between the through hole 431 and the circular ring slot 411 on the pressing roller 41, the installation of the pressing roller 41 by the roller bracket 42 is realized, and the pressing roller 41 can lift along with the lifting of the lifting square block 43 in the rail of the pressing roller 41, further the device can adjust the relative distance between the pressing roller 41 and the conveyor main body 3 conveyor belt in a certain range according to the requirement through the purpose of adjusting the relative height of the lifting square block 43, the purpose of limiting the relative thickness of rare earth metal on the conveyor main body 3 conveyor belt is realized, the second gear 412 and the first gear 31 on the pressing roller 41 are connected through the linkage chain 44, the conveyor main body 3 conveyor belt and the first gear 31 can synchronously rotate, and the rotary pressing of the rare earth metal is realized.

Further, as shown in fig. 3 and 4, a straight slot opening 421 is formed on one side of one of the roller frames 42, a linkage short rod 45 is slidably mounted between the inner walls of the straight slot opening 421, one end of the linkage short rod 45 is fixed to a center of one side of one of the lifting blocks 43, and a threaded sleeve 451 is fixed to the other end of the linkage short rod 45.

In operation, the roller bracket 42 installs the linkage short rod 45 through the straight slot opening 421, and the screw sleeve 451 and the lifting block 43 are connected through the linkage short rod 45, so that the linkage short rod 45 and the conveyor main body 3 can synchronously lift, and the purpose of adjusting the relative height of the pressing roller 41 can be achieved by adjusting the relative height of the screw sleeve 451.

Further, as shown in fig. 3 and 4, a lifting screw 46 is mounted on the inner wall of the screw sleeve 451 through screw threads, screw brackets 461 are fixed to both ends of the lifting screw 46 through bearings, wherein one bottom surface of the screw bracket 461 is fixed to the lower side wall of the roller bracket 42, and the other side wall of the screw bracket 461 is fixed to the upper side wall of the roller bracket 42.

In operation, the threaded sleeve 451 and the lifting screw 46 are mutually matched, and the fixing of the lifting screw 46 by the roller bracket 42 is realized by the mutual matching of the screw bracket 461 and the side wall of the roller bracket 42 at the two ends of the lifting screw 46, so that the relative position of the threaded sleeve 451 can be controlled by the rotation of the lifting screw 46.

Further, as shown in fig. 3, a motor 462 is fixed to the top surface of the screw support 461, and an output shaft of the motor 462 penetrates the screw support 461 to be connected with the shaft center of the lifting screw 46.

In operation, the motor 462 provides an output force for rotation of the lift screw 46.

Further, as shown in fig. 3 and 5, the front part of the top surface of the base frame 1 is fixed with a chain limiting frame 5, a lifting square plate 51 is slidably installed between the inner walls of the rails of the chain limiting frame 5, a chain pressing cylinder 52 is installed on the lifting square plate 51 through a shaft rod, the chain pressing cylinder 52 is inserted into and linked with the chain 44, an elastic telescopic rod 53 is fixed at the center of the top surface of the lifting square plate 51, and one end of the elastic telescopic rod 53 is fixed with the top surface of the groove of the chain limiting frame 5.

During operation, the chain limiting frame 5 is used for installing the lifting square plate 51, so that the lifting square plate 51 can lift in the track range of the chain limiting frame 5, the lifting square plate 51 can play a role in limiting the pressing of the linkage chain 44 through the mutual cooperation between the chain pressing cylinder 52 and the linkage chain 44, the rotation of the linkage chain 44 cannot be influenced, and the elastic acting force is provided for the downward pressing of the lifting square plate 51 through the installation of the elastic telescopic rod 53.

Working principle: in order to solve the problem that the electrolyte on the surface of the rare earth metal is dried and removed thoroughly due to the uncontrollable thickness of the rare earth metal on the conveyor belt, the electric heating box main body 2 and the conveyor main body 3 are arranged above the base frame 1, the conveyor belt of the conveyor main body 3 passes through a drying cabin of the base frame 1, the adjusting mechanism 4 is arranged on one side above the base frame 1, the thickness of the rare earth metal on the conveyor main body 3 is limited by rolling pressing of the rare earth metal arranged on the conveyor belt of the conveyor main body 3 through the structure, the roller bracket 42 is arranged on the lifting block 43 through the inner rail, the lifting block 43 is linked with the pressing roller 41 through the mutual clamping between the through hole 431 and the circular ring groove 411 on the pressing roller 41, so that the pressing roller 41 can lift along with the lifting of the lifting block 43 in the rail of the pressing roller 41, the relative distance between the pressing roller 41 and the conveyor belt of the conveyor body 3 is adjusted, the second gear 412 and the first gear 31 on the pressing roller 41 are connected through the linkage chain 44, the conveyor belt of the conveyor body 3 and the first gear 31 can synchronously rotate, the rare earth metal is rotationally pressed, the roller bracket 42 is used for installing the linkage short rod 45 through the straight slot opening 421, the linkage short rod 45 is connected with the threaded sleeve 451 and the lifting square 43 through the linkage short rod 45, the linkage short rod 45 and the conveyor body 3 can synchronously lift, the threaded sleeve 451 and the lifting screw 46 are mutually matched, the fixation of the roller bracket 42 to the lifting screw 46 is realized through the mutual matching of the screw bracket 461 and the side wall of the roller bracket 42 at the two ends of the lifting screw 46, the motor 462 provides output force for the rotation of the lifting screw 46, the chain limiting bracket 5 is used for installing the lifting square plate 51, so that the lifting square plate 51 can perform lifting movement within the track range of the chain limiting frame 5, the lifting square plate 51 can play a role in limiting the pressing of the linkage chain 44 through the mutual cooperation between the chain pressing cylinder 52 and the linkage chain 44, and elastic acting force is provided for the pressing of the lifting square plate 51 through the installation of the elastic telescopic rod 53.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (6)

1. The utility model provides a rare earth metal surface electrolyte remove device, includes bed frame (1), the top surface of bed frame (1) is fixed with electric heating case main part (2), conveyer main part (3) are installed to inside below of electric heating case main part (2), its characterized in that: the utility model discloses a conveyer, including conveyer main part (3), including base frame (1), conveyer main part (3), both ends support of conveyer main part (3) are fixed with the both sides top surface of base frame (1) respectively, the one end front surface of conveyer main part (3) is provided with first gear (31), the axostylus axostyle one end of first gear (31) link up to the inside of conveyer main part (3) and be connected with its pivot, one side of the top electric heating box main part (2) of base frame (1) is fixed with adjustment mechanism (4), adjustment mechanism (4) are including pressing cylinder (41), circular ring groove (411) have all been seted up near both ends edge to the outer wall of pressing cylinder (41).

2. A rare earth metal surface electrolyte removal apparatus as set forth in claim 1, wherein: the two ends of the pressing roller (41) are respectively provided with a roller bracket (42), lifting blocks (43) are slidably mounted between the inner walls of the tracks of the roller brackets (42), one side of each lifting block (43) is provided with a through hole (431), the inner walls of the through holes (431) are respectively clamped with the inner walls of the two circular ring grooves (411), one end of a shaft rod of the pressing roller (41) is fixedly provided with a second gear (412), and a linkage chain (44) is mounted between the second gear (412) and the outer wall of the first gear (31) in a meshed mode.

3. A rare earth metal surface electrolyte removal apparatus as set forth in claim 2, wherein: one of them straight slot opening (421) have been seted up to one side of cylinder support (42), slidable mounting has linkage quarter butt (45) between the inner wall of straight slot opening (421), one end and one side center department of one of them lifting block (43) of linkage quarter butt (45) are fixed mutually, the other end of linkage quarter butt (45) is fixed with screw sleeve (451).

4. A rare earth metal surface electrolyte removal apparatus as set forth in claim 3, wherein: the lifting screw rod (46) is arranged on the threads of the inner wall of the threaded sleeve (451), screw rod brackets (461) are fixed at two ends of the lifting screw rod (46) through bearings, one screw rod bracket (461) is fixed on the bottom surface of the screw rod bracket (461) and the lower side wall of the roller bracket (42), and the other screw rod bracket (461) is fixed on the upper side wall of the roller bracket (42).

5. The rare earth metal surface electrolyte removal apparatus as set forth in claim 4, wherein: the top surface of lead screw support (461) is fixed with motor (462), the output shaft of motor (462) link up lead screw support (461) and be connected with the axle center of lift lead screw (46).

6. The rare earth metal surface electrolyte removal apparatus as set forth in claim 5, wherein: the chain limiting frame (5) is fixed at the front portion of the top surface of the base frame (1), the lifting square plate (51) is slidably mounted between the track inner walls of the chain limiting frame (5), the chain pressing cylinder (52) is mounted on the lifting square plate (51) through the shaft rod, the chain pressing cylinder (52) is inserted in the linkage chain (44) support, an elastic telescopic rod (53) is fixed at the center of the top surface of the lifting square plate (51), and one end of the elastic telescopic rod (53) is fixed with the top surface of a groove of the chain limiting frame (5).